Retractable cosmetic implement with multiple positions

ABSTRACT

A retractable cosmetic implement may be movable between multiple different use positions. In one example, the cosmetic implement may include a housing elongated along a longitudinal axis, a multi-stop positioning mechanism disposed within the housing and a cosmetic element. By actuating the positioning mechanism, the cosmetic element may move through an opening to a partially extended position and/or a fully extended position from a retracted position. The cosmetic element may have a material characteristic, such as a density of bristles, affected by its position relative to a rim of the opening.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 14/071,420, filed Nov. 4, 2013, the disclosure of which is incorporated herein by reference.

BACKGROUND

A typical cosmetic brush contains a handle and an applicator attached to one end of the handle. This combination of a handle and an applicator provides a simple, low-cost and effective brush for the application of cosmetic materials.

Cosmetic brushes can vary greatly in size, shape, and type of applicator in order to meet the differing needs of cosmetic users and cosmetic products. For instance, some cosmetic brushes have an applicator comprised of bristles loosely bundled together at an end giving the applicator a soft, fluffy characteristic. These applicators are useful for delicately applying loose powders (e.g., foundation, blush, etc.) for sheer and light applications to areas of the face. Other cosmetic brushes have bristles more tightly bundled together at an end giving the applicator a firmness suitable for applying cosmetic products that require precision, e.g., contouring eye shadow.

With the immense variety of cosmetic products currently on the market, users often carry multiple brushes, each corresponding to a specific use and/or cosmetic product. This increases the cost to the user and adds clutter to their carrying bag, purse, bathroom, and the like.

Accordingly, there remains a need for improved cosmetic brushes.

BRIEF DESCRIPTION OF THE DRAWINGS

The detailed description is set forth with reference to the accompanying figures. In the figures, the left-most digit(s) of a reference number identifies the figure in which the reference number first appears. The use of the same reference numbers in different figures indicates similar or identical items.

FIG. 1A is a perspective view of an example retractable cosmetic implement with a housing, the housing being shown as transparent for ease of explanation.

FIG. 1B is a cross-sectional elevation view of an example retractable cosmetic implement including a spring.

FIG. 2 is s a schematic showing a sequence of views of an example retractable cosmetic implement in a retracted position, a partially extended position, and a fully extended position.

FIG. 3 is an exploded perspective view of the example retractable cosmetic implement of FIG. 1A.

FIG. 4A is top view of the example retractable cosmetic implement of FIG. 1A.

FIG. 4B is a top view of an example retractable cosmetic implement with a push-button omitted for illustrative purposes.

FIG. 5 is a perspective view of a push-button and a multi-stop positioning mechanism of an example retractable cosmetic implement.

FIG. 6A is a schematic representation illustrating an example guide rail configuration of a retractable cosmetic implement comprising two sets of guide rails evenly and alternately spaced.

FIG. 6B is a schematic representation illustrating an example guide rail configuration of a retractable cosmetic implement comprising three sets of guide rails evenly and alternately spaced.

FIG. 6C is a schematic representation illustrating an example guide rail configuration of a retractable cosmetic implement comprising two sets of guide rails in an alternating, abutting arrangement.

DETAILED DESCRIPTION Overview

As discussed above, the shortcomings of existing cosmetic brushes is often a source of inconvenience and expense for cosmetic brush users. Users require a specific brush for each type of cosmetic product and/or desired effect, resulting in users carrying an assortment of brushes in a cluttered purse or carrying bag. The cost of maintaining such a collection can quickly add up. Also, brushes that include a cap for protecting the applicator portion become extremely vulnerable to damage when the cap is lost, as often happens.

This disclosure is directed to a retractable cosmetic implement that is movable to multiple positions. The cosmetic implement is multi-functional, in that a single applicator may be used for multiple effects and/or products depending on which position it is in. The disclosed cosmetic implement may not require a cap because, in some examples, the applicator may have a position fully retracted into a housing. Many other advantages are discussed herein.

In some examples, this disclosure describes a retractable cosmetic implement comprising a housing, a multi-stop positioning mechanism disposed in the housing and an applicator coupled to the positioning mechanism at a first end of the housing. In some embodiments, the positioning mechanism may resemble, at least in principle, a click-pen mechanism commonly used in retractable pens. That is, the positioning mechanism may partially translate a longitudinal force imparted by a button into a rotational force, which both moves a protuberance (in the case of a retractable pen, the pen tip) through an opening and rotates it into an indexed position. For instance, the positioning mechanism may have a top surface configured to engage a push-button extending from a second end of the housing. When the push-button is actuated, the positioning mechanism may slide along a longitudinal axis of the housing, extending the applicator out the first end. As noted above, the cosmetic implement may be capable of providing protection to the applicator when the applicator is retracted into the housing, such that a cap is not required.

In some embodiments, the cosmetic implement may be actuated to a first, partially extended position with the applicator extended a first distance from an opening of the housing and a second, fully extended position with the applicator extended a second distance from the opening, the second distance being greater than the first distance. In the partially extended position, a rim of the opening may make contact with the applicator, applying a compressive force to an outer perimeter of the applicator. The applicator may have a material characteristic affected by the compressive force. For instance, the applicator may comprise a plurality of bristles which are compacted by the compressive force. The compacted bristles may have a firmness suitable for applying one type of cosmetic product. When the applicator is fully extended, the bristles may fully exit the opening and expand. In the fully extended position, the bristles may be loose and uncompacted with a softness suitable for applying a second type of cosmetic product. In some examples, the retractable cosmetic implement may be useful to perform the functions of multiple brushes configured for different cosmetic products and/or to apply different cosmetic effects, thereby alleviating clutter.

In some examples, the retractable cosmetic implement may comprise a positioning mechanism similar to the click-pen mechanism described above with a shaft coupled to a ferrule at a first end and coupled to a disk at a second end. The disk may have multiple channels formed onto a side surface. The channels may be configured to mate with guide rails protruding from an internal surface of the housing. When actuated by the push-button, the disk may slide along the guide rails. The push-button may be configured to provide a rotational force to the disk, causing it to rotate once it reaches the end of the guide rails. The ends of the guide rails may mate with a stop surface on the disk, locking it into a partially extended or fully extended position, depending on a length of the guide rails. Another actuation of the push-button may free the stop surface from the end of the guide rails, causing the disk to rotate and the guide rails to engage the channels, sliding the positioning mechanism back to a retracted position.

Multiple and varied example implementations and embodiments are described throughout. However, these examples are merely illustrative and other implementations and embodiments of a retractable cosmetic implement with multiple positions may be implemented without departing from the scope of the disclosure. For instance, the implementations, or portions thereof, may be rearranged, combined, used together, omit one or more portions, be omitted entirely, and/or may be otherwise modified to arrive at variations on the disclosed implementations.

Illustrative Retractable Cosmetic Implement

FIGS. 1A and 1B illustrate an example retractable cosmetic implement 100 comprising a multi-stop positioning mechanism 102 disposed inside a housing 104. In some examples, the housing 104 may be elongated along a longitudinal axis 106 and have a circular cross section, giving the housing 104 a cylindrical shape. However, in other examples, the housing 104 may have other cross-sectional shapes (e.g., oval, square, triangle, etc.). The housing 104 may include a partition 108 disposed between a first end 110 and a second end 112 of the housing 104. The partition 108 may divide the housing 104 into a first chamber 114 and a second chamber 116. In some examples, the first chamber 114 may house one or more linkages or actuation mechanisms, while the second chamber 116 may house an applicator.

The positioning mechanism 102 may be disposed inside the housing 104 with a shaft 118 extending from a first end 110 of the housing through an aperture 120 in the partition 108. The shaft 118 may be centrally located within the housing 104 along the longitudinal axis 106. In some embodiments, the positioning mechanism 102 may comprise a disk 122. The disk 122 may be coupled at its center to the shaft 118 near the first end 110 of the housing 104. The disk 122 may be configured to engage a push-button 124 or other type of actuator (e.g., lever, switch, knob, slider, etc.). The push-button 124 may extend away from the first end 110 of the housing 104 with a bottom portion 126 at least partially disposed in the housing 104. The positioning mechanism 102 may include a ferrule 128 coupled to the shaft 118 near the second end 112 of the housing 104. A spring 130 may be disposed around the shaft 118, abutting the partition 108 at a first end and abutting the disk 122 at a second end. In some embodiments, the spring 130 may be disposed in the shaft 118.

In some examples, the shaft 118, the disk 122, and/or the ferrule 128 may have a circular cross section. The shaft 118 and/or the ferrule 128 may have a diameter dimension substantially the same as an inner diameter dimension of the housing 104, such that the disk 122 and/or the ferrule 128 fits snugly into the housing 104, abutting an internal surface 132 of the housing 104. The shaft 118 may have a diameter dimension substantially less than the inner diameter dimension of the housing 104 to pass through the aperture 120 on the partition 108.

In some embodiments, a portion of the positioning mechanism 102 including the disk 122 may be disposed in the first chamber 114 and a portion of the positioning mechanism 102 including the ferrule 128 may be disposed in the second chamber 116. The shaft 118 may be at least partially disposed in both chambers 114 and 116 and may slide between the chambers 114 and 116 through the aperture 120 when the positioning mechanism 102 is actuated, as described in greater detail below.

In some examples, the cosmetic implement 100 may comprise a plurality of guide rails 134 disposed on the internal surface 132 of the housing 104. The plurality of guide rails 134 may terminate at the first end 110 of the housing and may extend towards the second end 112, parallel with the longitudinal axis 106. The plurality of guide rails 134 may engage with the push-button 124 and/or the positioning mechanism 102 to guide an actuation of the positioning mechanism 104, as described in greater detail below.

In some embodiments, the ferrule 128 may couple an applicator 136 to the positioning mechanism 102. The applicator 136 may be coupled with the ferrule 128 via an adhesive, crimp, compression fitting, friction fitting, a fastener, and/or any other coupling means. In some examples, the applicator 136 and the ferrule 128 may comprise a single component while in other examples they may comprise separate components. In other examples, the applicator 136 may be coupled to the shaft 118 without the ferrule 128.

In some examples, the applicator 136 may be enclosed in the second chamber 116 when the cosmetic implement 100 is in a retracted position 138, as illustrated in FIGS. 1A and 1B. The second chamber 116 may have an opening 140 at the second end 112 of the housing through which the applicator 136 may protrude when the positioning mechanism 102 is actuated. The opening 140 may have a rim 142 comprised of an outer edge of the housing 104. In other examples, the rim 142 may comprise a protrusion protruding inwardly from the internal surface 132 of the housing, slightly inset from the opening 140 (not shown).

FIG. 2 illustrates an example cosmetic implement 200 in the retracted position 138, a partially extended position 202, and a fully extended position 204. In some examples, the implement 200 may be movable from the retracted position 138 to one of the partially extended position 202 or the fully extended position 204 by imparting a force 206 parallel to the longitudinal axis 106 onto the push-button 124, actuating the positioning mechanism 102. When the implement 200 is in the partially extended position 202, the applicator 136 may be partially extended through the opening 140, such that the rim 142 of the opening 140 makes contact with the applicator 136, applying a compressive force against an outer perimeter of the applicator 136.

In some embodiments, the applicator 136 may have a material characteristic. In some examples the applicator 136 may comprise a brush with synthetic and/or natural bristles and the material characteristic may be a density of bristles. The density of bristles may affect a firmness, an absorbance, a lateral dimension 208, and/or many other properties of the applicator 136. In some examples, the applicator 136 may comprise a sponge, a flocking, a silicone member, and/or combinations thereof. In such examples, the material characteristic may be a density of applicator material, which may affect the properties of the applicator 136 as described above with regard to the density of bristles.

In some examples, the force applied by the rim 142 of the opening 140 against the applicator 136 when the implement 200 is in the partially extended position 202 may affect the material characteristic of the applicator 136. For instance, the applicator 136 may have the lateral dimension 208 that is less than a lateral dimension 210 of the applicator 136 when the implement 200 is in the fully extended position 204. As noted above, the applicator 136 may have a firmness, an absorbance, or other property affected by a compactness of applicator material responsive to the force applied by the rim 142.

In some embodiments, the positioning mechanism 102 may be actuated, moving the implement 200 into the fully extended position 204. In the fully extended position 204, the applicator 136 may be moved along the longitudinal axis 106 until it is disposed outside the housing 104. The applicator 136 may move a fully extended length 212 corresponding to an actuation length 214 that the push-button 124 is displaced. In some examples, the applicator 136 may have a portion still disposed in the housing 104 when the implement is in the fully extended position 204 such that one of the material characteristics of the applicator 136 is responsive to the force applied by the rim 142, as noted above with regard to the partially extended position 202. In such examples, the term “fully extended” refers to the fact that the applicator 136 has reached a maximum extension, even if it is still partially disposed in the housing 104. In other examples, the applicator 136 may be fully disposed outside the housing 104 when in the fully extended position 204 such that the rim 142 does not make contact with the applicator 136.

In some examples, the fully extended length 212 of the applicator 136 in the fully extended position 204 may be substantially double (e.g., 2:1) a partially extended length 216 of the applicator 136 in the partially extended position 202. In other examples, the ratio of the fully extended length 212 to the partially extended length 216 may be 1.25-to-1; 1.5-to-1; 3-to-1; 4-to-1 or any other ratio that causes a material characteristic to change between the partially extended position 202 and the fully extended position 204. As discussed in greater detail below with regard to FIG. 6, the ratio of the fully extended length 210 to the partially extended length 212 may be at least partly determined by a configuration of the plurality of guide rails 134. In some examples, there may be more than one partially extended position 202.

In some examples, the applicator 136 may comprise a plurality of bristles 218. When the implement 200 is in the partially extended position 202, the plurality of bristles 218 may be compacted by the compressive force applied by the rim 142. As such, the lateral dimension 208 and the firmness of the applicator 136 may be suitable for certain cosmetic applications, such as applying a cosmetic product for contouring. The implement 200 may be actuated to the fully extended position 204. In the fully extended position, the lateral dimension 210 of the applicator 136 may be greater than the lateral dimension 208 of the applicator 136 when the implement 200 is in the partially extended position 202. The applicator 136 may be softer when in the fully extended position 204. In the fully extended position 204, the applicator 136 may be suitable for cosmetic applications different than when the implement 200 is in the partially extended position 202, such as applying a cosmetic product for blending. In some examples, the cosmetic implement 200 may be capable of multiple cosmetic applications due to varying material characteristics corresponding to varying positions of the applicator 136.

In some embodiments, the implement 200 may comprise a cap 220. The cap 220 may be positionable over the opening 140 of the housing 104. The cap 220 may be held in place via a friction fit, snap-fit, screw-type mechanism, magnets, combinations thereof, or any other removable fastening method. In some examples, the cap 220 may be positionable over the push-button 124 using any of the aforementioned fastening methods. When positioned over the opening 140, the cap 220 may provide a barrier to prevent dirt, debris, or other foreign objects from entering the housing 104 and potentially damaging the applicator 136. In some examples, a flapper (not shown) communicatively coupled to the positioning mechanism 102 may be disposed over the opening the housing to provide the barrier when the implement 200 is in the retracted position 138. The flapper may be automatically opened responsive to an actuation of the push-button 124 (e.g. by a linkage).

FIG. 3 illustrates an exploded view of the example retractable implement 100. The implement 100 may comprise the push-button 124, the first chamber 114 of the housing 104, the second chamber 116 of the housing 104, the positioning mechanism 102, and the applicator 136.

The positioning mechanism 102 may comprise the ferrule 128 which may include a hole 302 with threading for receiving the shaft 118. During assembly, the ferrule 128 may be positioned in the second chamber 116 abutting the partition 108. The shaft 118 may be inserted through the aperture 120 on the partition 108, and mate with the hole 302. The shaft 118 may have a corresponding threading to permanently or semi-permanently couple the ferrule 128 to the shaft 118.

The second chamber 116 may comprise a threading 304 disposed around an end 306 configured to mate with a threading 308 around a corresponding end 310 of the first chamber 114. The first chamber 114 and the second chamber 116 may be coupled with an adhesive, snap-fit, friction, molding, welding, or any other method of coupling. The coupling of the first chamber 114 to the second chamber 124 may be permanent or semi-permanent. In some examples, the first chamber 114 and the second chamber 116 may be manufactured as a single unit.

The push-button 124 may comprise an elongated body 312 coupled to an engagement plate 314. The engagement plate 314 may include a shelf 316 to abut a stop rim 318 disposed around an inner edge of the first chamber 114, preventing the push-button 124 from fully exiting the housing 104.

In some embodiments, the push-button 124, the first chamber 114 of the housing 104, the second chamber 116 of the housing 104, and/or the positioning mechanism 102 may be comprised of a rigid or sem-rigid material such as polymer, metal, wood, ceramic, fiberglass, composites thereof, and/or combinations thereof. The push-button 124, the first chamber 114, the second chamber 116, and/or the positioning mechanism 102 may be comprised of the same material or of different materials. The push-button 124, the first chamber 114, the second chamber 116, and/or the positioning mechanism 102 may be comprised of a transparent material, a translucent material, an opaque material, and/or combinations thereof. Although, the push-button 124, the first chamber 114, the second chamber 116, and the positioning mechanism 102 are illustrated in FIG. 3 as comprising separately distinct units, any combination of these elements may be combined and/or manufactured as a single unit.

FIG. 4A illustrates a top view of a cosmetic implement 400. Although the housing 104 of the cosmetic implement 400 illustrated in FIG. 4A is shown to be transparent for ease of understanding, some embodiments may comprise a housing 104 that is partially or fully opaque, translucent, transparent, or combinations thereof. In some examples, the engagement plate 314 on the push-button 124 may comprise a plurality of channels 402 disposed around an outer surface 404. In some examples, the plurality of channels 402 may comprise four channels evenly spaced 90° apart as measured from the center of the push-button 124. The plurality of channels 402 may be configured to mate with the plurality of guide rails 134 disposed on the internal surface 132 of the housing 104.

In some examples, the plurality of guide rails 134 may guide the push-button 124 when the push-button 124 is actuated by the downward force 206. The push-button 124 may slide along the guide rails 134 in a direction parallel to the longitudinal axis 106. The spring 130 may provide a resistant force to oppose the actuation force 206. The rim stop 318 may prevent the spring 130 from forcing the push-button 124 out of the housing 104. The push-button 124 may have a length dimension less than a length dimension of the guide rails 134, such that it cannot slide beyond the guide rails 134. In other words, the guide rails 134 may act like a keyway for the push-button 124, preventing it from rotating and limiting its motion to the single longitudinal direction. In some examples, the push-button 124 may not disengage the rail guides 134 at any point.

FIG. 4B shows a top view of the cosmetic implement 400 with the push-button 124 omitted for illustrative purposes, exposing a side surface 406 of the disk 122. The disk 122 may have a plurality of channels, described in greater detail below, running parallel to the longitudinal axis 106 formed into the side surface 406 for engaging the plurality of guide rails 134.

The side surface 406 may include a first channel 408, a second channel 410 disposed opposite the first channel 408, a third channel 412 disposed between the first and second channels 408 and 410, a fourth channel 414 disposed opposite the third channel 412 and between the first and second channels 408 and 410, a fifth channel 416 disposed between the first and third channels 408 and 412, and a sixth channel 418 disposed opposite the fifth channel 416 and between the second and fourth channels 410 and 414.

The first and second channels 408 and 410 may comprise a first set of channels 420, the third and fourth channels 412 and 414 may comprise a second set of channels 422, and the fifth and sixth channels 416 and 418 may comprise a third set of channels 424. In some embodiments, the side surface 406 may include a first stop surface 426 between the first channel 408 and the fourth channel 414 and a second stop surface 428 disposed opposite the first stop surface 426 and between the second and third channels 410 and 412.

FIG. 5 illustrates an example positioning-mechanism 500 and an example push-button 502. In some examples, the positioning mechanism 500 may be actuated when the downward force 206 is applied to the push-button 502, a bottom surface 504 of the push-button 502 engaging a top surface 506 of the disk 122. The bottom surface 504 may comprise a plurality of slopes 508 in a saw-tooth configuration, broken by the plurality of channels 402. In some examples, when the plurality of slopes 508 engages the top surface 506 of the disk 122, the plurality of channels 402 on the push-button 502 may align with at least one of the plurality of sets of channels 420, 422 and/or 424 via the guide rails 134.

In some embodiments, a point 510 on the bottom surface 504 of the push-button 502 may contact a peak 512 on the top surface 506 of the disk 122 when the push-button 502 is actuated. The point 510 may be slightly misaligned with the peak 512 such that a component of the force 206 is transmitted in a rotational direction 514. As the positioning mechanism 500 slides along the longitudinal axis 106, the guide rails 134 may prevent the positioning mechanism 500 from rotating. Similar to the click-pen mechanism of a retractable pen, the user may push the push-button 502 slightly past the extended position so that the top surface 506 of the disk 122 may clear the guide rails 134. Thus, the top surface 506 may slide past an end of the guide rails 134, so that the positioning mechanism 500 may be free to rotate. The guide rails 134 may have a slanted end to slide along the top surface 510 and engage at least one of the stop surfaces 426 and/or 428, locking the positioning mechanism 500 in the partially extended position 202 or the fully extended position 204, depending on a length of the set of guide rails 134 engaging the stop surfaces 426 and/or 428.

In some examples, the positioning mechanism 500 may be released from the partially extended position 202 or the fully extended position 204 by another actuation of the push-button 502. The push-button 502 may move the positioning mechanism 500 a length along the longitudinal axis 104 to release the end of the guide rails 134 from the stop surfaces 426 and/or 428. A component of the force 206 directed in the rotational direction 514 by the sloped configuration of the top surface 506 and the bottom surface 504 may rotate the disk 122 until a set of the plurality of guide rails 134 engage one of the sets of channels 420, 422, or 424 and provide a path for the positioning mechanism 500 to slide back to the retracted position 138.

In some embodiments, an actuation of the positioning mechanism 500 may comprise the push-button 502 moving only along the longitudinal axis 106, pushing the positioning mechanism 500 along the longitudinal axis 106 until it slides past an end of one of the plurality of guide rails 134 and rotates. The positioning mechanism 500 may be locked in the partially extended position 202 or the fully extended position 204 by the end of at least one of the plurality of guide rails 134 mating with one of the stop surfaces 426 and/or 428. A second actuation may cause the positioning mechanism 500 to release from the partially extended position 202 or the fully extended position 204 and rotate until all of the plurality of guide rails 134 are engaged with at least one of the sets of channels 420, 422, and/or 424, causing the positioning mechanism 500 to slide back to the retracted position 138. In the retracted position 138, the stop surfaces 426 and/or 428 may be disposed between the plurality of guide rails 134.

FIGS. 6A-6C illustrate different possible guide rail configurations on the internal surface 132 of the housing 104. FIG. 6A illustrates a first guide rail configuration 600 which, in some examples, may comprise a first pair of guide rails 602 having a first length 604 and a second pair of guide rails 606 having a second length 608. In some embodiments, the guide rails of first pair 602 may alternate with the guide rails of the second pair 606. The alternating guide rails of the first and second pairs 602 and 604 may be evenly spaced apart by a plurality of gaps 610. In some embodiments, the second length 608 may be greater than the first length 604. When the ends of the first pair of guide rails 602 mate with the stop surfaces 426 and 428 of the disk 122, the implement 100 may be in the partially extended position 202. When the ends of the second pair of guide rails 606 mate with the stop surfaces 426 and 428 of the disk 122, the implement 100 may be in the fully extended position 204. When both pairs of guide rails 602 and 606 are received by one of the sets of channels 420, 422, and/or 424, the stops surfaces 426 and 428 may be disposed in the plurality of gaps 610 and the implement 100 may be in the retracted position 138.

FIG. 6B illustrates a second guide rail configuration 612. In some examples, configuration 612 may comprise the first set of guide rails 602, the second set of guide rails 606, and a third set of guide rails 614 with a third length 616. In some embodiments, the third length 616 may be greater than the first length 604 and the second length 608. The guide rails of each set 602, 606, and 614 may alternate and be spaced apart by the plurality of gaps 610 such that every other actuation of the push-button 124 causes the stop surfaces 426 and 428 to be disposed in the plurality of gaps 610 and the positioning mechanism 102 to slide back to the retracted position 138. In some examples, the first set of guide rails 602 may correspond to the first partially extended position 202, the second set of guide rails 606 may correspond to a second partially extended position (not shown), and the third set of guide rails 614 may correspond to the fully extended position 204.

Although three sets of guide rails 602, 606 and 614 corresponding to three extended positions are illustrated in FIG. 6B, some embodiments may include more than three sets of guide rails corresponding to more than three extended positions. For instance, configuration 612 may include a fourth set of guide rails corresponding to a fourth extended position. Any number of extended positions may be provided by varying the number of guide rail sets. In some examples, the material characteristic of the applicator 136 may have a number of states corresponding to the number of extended positions the positioning mechanism 102 may comprise. For instance, the applicator may comprise a brush with four positions corresponding to four sets of rail guides. In the first position, corresponding to the first set of rail guides, the bursh may be relatively compact and firm. This material characteristic may be suitable for applying a cosmetic product for contouring. The material characteristic may incrementally and progressively change in response to moving the applicator from the first position, to the second position, to the third position, to the fourth position. In the fourth position, corresponding to the fourth set of guide rails, the brush may be expanded such that it is fluffier relative to the first, second, and third positions, making the brush more suitable for sheer applications such as loose powders.

FIG. 6C illustrates a third guide rail configuration 618. In some embodiments, configuration 618 may comprise the first set of guide rails 602 alternating with the second set of guide rails 606. In configuration 618, a first guide rail 620 of the first set 602 may be disposed adjacent to a second guide rail 622 of the second set 606 with no gap between the first guide rail 620 and the second guide rail 622. Additional guide rails from the first and second sets 602 and 606 may be disposed on the internal surface 132 in the same manner.

In some examples, a first actuation of the push-button 124 may slide the disk 122 longitudinally until the first set of guide rails 602 mates with the stop surfaces 426 and 428. A second actuation of the push-button 124 may release the disk 122 from the first set of guide rails 602, the disk 122 may rotate, and the disk 122 may slide back towards the push-button 124 until the second set of guide rails 606 mates with the stop surfaces 426 and 428. A third actuation of the push-button 124 may release the disk 122 form the second set of guide rails 606, the disk may rotate, and the disk may slide towards the first end 110 of the housing 104 until the positioning mechanism 102 has returned to the retracted position 138. In some embodiments, the positioning mechanism 102 may be moved to the partially extended position 202 and the fully extended position 204 without returning to the retracted position 138 between the partially extended position 202 and the fully extended position 204.

The foregoing examples describe a retractable cosmetic implement having an applicator movable between multiple positions. The cosmetic implement allows a single brush to replicate the functionality of multiple brushes by having a different material characteristic in each position. The cosmetic implement also provides substantial protection to the applicator when it is retracted into the housing without requiring a cap.

CONCLUSION

Although this disclosure uses language specific to structural features and/or methodological acts, it is to be understood that the scope of the disclosure is not necessarily limited to the specific features or acts described. Rather, the specific features and acts are disclosed as illustrative forms of implementation. 

What is claimed is:
 1. A cosmetic implement, comprising: a housing extending a length along a longitudinal axis; a cosmetic element disposed at a first end of the housing; an actuator disposed at a second end of the housing; a multi-stop positioning mechanism disposed at least partially in the housing with a shaft extending along the longitudinal axis inside the housing and coupled to the cosmetic implement, the multi-stop positioning mechanism configured to at least partially translate a longitudinal force of the actuator to a rotational force; and wherein the multi-stop positioning mechanism is configured to move the cosmetic element between a plurality of longitudinal positions.
 2. The cosmetic implement of claim 1, wherein the plurality of longitudinal positions include at least a position of the cosmetic element inside the housing, outside the housing, and partially outside the housing.
 3. The cosmetic implement of claim 1, wherein a density of the cosmetic element is dependent, at least in part, upon a position of the cosmetic element relative to the housing.
 4. The cosmetic implement of claim 1, wherein the cosmetic element comprises a plurality of bristles.
 5. The cosmetic implement of claim 1, wherein the cosmetic element comprises a flocking.
 6. The cosmetic implement of claim 1, wherein the cosmetic element comprises a silicone member.
 7. The cosmetic implement of claim 1, wherein the cosmetic element comprises a sponge.
 8. The cosmetic implement of claim 1, wherein the multi-stop positioning mechanism comprises a disk having a top surface and a plurality of peaks extending from the top surface, the plurality of peaks configured to engage a plurality of points extending from a bottom surface of the actuator.
 9. The cosmetic implement of claim 1, wherein the multi-stop positioning mechanism comprises a disk having a side wall extending between a top surface and a bottom surface, the disk further comprising a plurality of channels formed in said side wall and configured to engage a plurality of channels disposed on an internal surface of the housing.
 10. A cosmetic implement, comprising: a housing extending a length along a longitudinal axis; a cosmetic element disposed at a first end of the housing; an actuator disposed at a second end of the housing; and a multi-stop positioning mechanism configured to engage the actuator, the multi-stop positioning mechanism disposed at least partially in the housing with a shaft extending along the longitudinal axis inside the housing and coupled to the cosmetic implement, the multi-stop positioning mechanism configured to at least partially translate a longitudinal force of the actuator to a rotation force configured to move the cosmetic element between a plurality of indexed positions corresponding at least to a first position inside the housing, a second position partially outside the housing, and a third position outside the housing.
 11. The cosmetic implement of claim 10, wherein the cosmetic element comprises a plurality of natural bristles, a plurality of synthetic bristles, a flocking, a silicone member, or a sponge.
 12. The cosmetic implement of claim 10, wherein the housing comprises a first chamber configured to house at least a portion of the multi-stop positioning mechanism and a second chamber configured to house the cosmetic element.
 13. The cosmetic implement of claim 12, wherein the first chamber and second chamber are separated by a partition.
 14. The cosmetic implement of claim 10, wherein the multi-stop positioning mechanism comprises a disk having a top surface and a plurality of peaks extending from the top surface, the plurality of peaks configured to engage a plurality of points extending from a bottom surface of the actuator.
 15. The cosmetic implement of claim 14, wherein the bottom surface of the actuator further comprises a sloped surface extending from each of the plurality of points.
 16. The cosmetic implement of claim 10, wherein the actuator comprises a push-button.
 17. A retractable cosmetic implement comprising: a positioning mechanism including a disk coupled to a first end of a shaft and a ferrule coupled to a second end of the shaft, the positioning mechanism configured to translate a longitudinal force applied to an actuator to a rotational movement of the disk; a housing enclosing the positioning mechanism, the housing having an opening proximal to the second end of the shaft; a cosmetic element coupled to the ferrule that moves longitudinally through the opening in response to the rotational movement of the disk.
 18. The retractable cosmetic implement of claim 17, wherein the actuator includes a bottom surface engaging a plurality of teeth on a top surface of the disk.
 19. The retractable cosmetic implement of claim 17, wherein the opening of the housing is configured to at least partially compact the cosmetic element when the cosmetic element is partially extended through the opening.
 20. The retractable cosmetic implement of claim 17, wherein the applicator comprises: a plurality of natural bristles, a plurality of synthetic bristles, a flocking, a silicone member, or a sponge. 